KR20190111671A - A temperature controlling bench using solar energy - Google Patents

Abstract

The present invention relates to a temperature control bench using sunlight, comprising: a solar panel focusing sunlight and converting the sunlight into electric energy; a power storage unit configured to store the electric energy converted by the solar panel; a seat unit including a seating unit for a user to sit thereon, and including a Peltier element module therein to be heated or cooled by using electric power stored in the power storage unit; and a control unit configured to control the seating unit to be heated or cooled by controlling the electric energy stored in the power storage unit.

Description

A temperature controlling bench using solar energy}

The present invention relates to a temperature control chair using sunlight, and more particularly, to a temperature control chair using sunlight that can change the temperature of a chair such as a bus platform using solar power generation.

In general, photovoltaic power generation is a device that converts solar energy into electrical energy, and has advantages such as pollution-free, noiseless, and infinite supply energy, and thus is positioned as one of alternative energy sources. In recent years, it has been applied to the bus platform.

Most bus stops are composed of ceilings and side walls to protect users from rain, snow, wind, and sunlight, and the front has an open structure for passengers to get on and off buses. There are many parts that need to be supplied with electric power such as an electric signboard to inform passengers, and technology development has been made for various convenience functions to improve user convenience by using solar power as a power supply source.

The conventional bus platform is provided with at least one chair connected to the passenger waiting for the bus. Conventional bus booth chair has a seat portion made of a plastic material, the surface temperature of the chair is low on a cold day has a problem that the passengers uncomfortable using the chair. In addition, there is a problem that the surface temperature of the chair is high on a hot day, causing discomfort in seating passengers.

The present invention is to solve a number of problems including the above problems, by introducing a small-scale solar installation on top of the bus platform as a solar energy source, by using the Peltier device with low power consumption in the seat It is an object of the present invention to provide a temperature-controlled chair using sunlight that installs an application of a heating / cooling chair to allow the user to feel cool on a hot day and to feel warm on a cold day. However, these problems are exemplary, and the scope of the present invention is not limited thereby.

According to one aspect of the invention, there is provided a temperature control chair using sunlight. A solar panel that focuses sunlight and converts it into electrical energy; A power storage unit configured to store electric energy converted by the solar panel; A seat part including a seating part for a user to sit on, and including a Peltier element module therein so as to be heated or cooled by using electric power stored in the power storage part; And a controller configured to control the heat generated or cooled by adjusting the power stored in the power storage unit.

In the temperature-controlled chair using the sunlight, the Peltier device module of the seat portion, the Peltier device that emits heat in one direction and absorbs heat in the other direction; A heat generating unit dissipating heat emitted from one side of the Peltier element through a heat generating fan; And a cooling unit that absorbs heat in the other direction of the Peltier element through a cooling block.

In the temperature-controlled chair using the sunlight, the sensor unit for detecting that the user is seated in the seat unit; The control unit, the sensor unit, if it is detected that the user is seated in the seat unit The heating unit or the cooling unit may be operated to change the temperature of the seat unit.

In the temperature control chair using the sunlight, the operation unit which can operate the heating unit or the cooling unit to change the temperature of the seat portion, the user can directly adjust the temperature; may further include a.

The temperature control chair using the sunlight, the seat of claim 1, wherein the seat portion, one side seating portion for emitting heat to one side of the seat portion; And the other seating portion for absorbing heat to the other side of the seat; It includes, and may further include a rotating part formed at the end of the seat portion to selectively rotate one side of the both sides of the seat portion upward in accordance with the external temperature.

In the solar temperature-controlled chair, the seat portion may be a plurality of Peltier device module is connected in series with the power storage unit.

In the solar temperature-controlled chair, the seat portion may be connected to the plurality of Peltier device module in parallel with the power storage unit.

According to an embodiment of the present invention made as described above, by using the solar cell to generate power through the solar environment-friendly in a low noise pollution-free method, it is possible to expand, reduce the required area according to the number of array of solar modules As a result, it can be installed at various places around the bus stop.

In addition, by heating and cooling the seat by using the Peltier element module, it is easy to apply by using a small and light Peltier element, the desired form can be selected, it is eco-friendly by not using a refrigerant such as Freon, No maintenance, such as corrosive liquid leaks, is required. In addition, it is possible to provide both a cooling and heating by changing the direction of the current, there is no moving part, there is no vibration or noise, and a temperature control chair using a long life of sunlight. Of course, the scope of the present invention is not limited by these effects.

1 is a photograph showing a temperature control chair using sunlight according to an embodiment of the present invention.
2 is a perspective view showing a temperature control chair using sunlight according to an embodiment of the present invention.
3 is an exploded perspective view showing a Peltier device module according to an embodiment of the present invention.
4a to 4c is a perspective view showing the rotation of the temperature control chair using sunlight according to another embodiment of the present invention.
5 and 6 are views showing a circuit connection of the seat of the temperature control chair using sunlight according to another embodiment of the present invention.

Hereinafter, various exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The embodiments of the present invention are provided to more fully explain the present invention to those skilled in the art, and the following examples can be modified in various other forms, and the scope of the present invention is It is not limited to an Example. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art. In addition, the thickness or size of each layer in the drawings is exaggerated for convenience and clarity of description.

Embodiments of the present invention will now be described with reference to the drawings, which schematically illustrate ideal embodiments of the present invention. In the figures, for example, variations in the shape shown may be expected, depending on manufacturing techniques and / or tolerances. Accordingly, embodiments of the inventive concept should not be construed as limited to the specific shapes of the regions shown herein, but should include, for example, changes in shape resulting from manufacturing.

1 is a photograph showing a temperature control chair using sunlight according to an embodiment of the present invention, Figure 2 is a perspective view showing a temperature control chair using sunlight according to an embodiment of the present invention.

First, as shown in Figures 1 and 2, the temperature control chair 1000 using sunlight according to an embodiment of the present invention, the solar panel 100, power storage unit 200, seating unit 300 ) And the controller 400.

The solar panel 100 converts sunlight into electrical energy, and one or more solar cell modules are connected to each other in series or in parallel to be formed in an external frame, and the solar cell module again includes a plurality of small unit cells in series. Or may be connected in parallel.

Specifically, the solar panel 100 is a device for converting light energy of sunlight into electrical energy, and uses a P-type semiconductor and an N-type semiconductor, and when light shines, holes and electrons are generated inside. do. At this time, holes move toward the P-type semiconductor, electrons move toward the N-type semiconductor, and a potential difference (photovoltaic power) is generated between the P and N poles, and when a load is connected to the solar panel 100, current flows. .

The solar panel 100 may use a silicon semiconductor or a compound semiconductor as a material, and the silicon panel is classified into a crystalline system and an amorphous system. Currently, silicon semiconductors are generally used as solar power generation systems, and single crystal and polycrystalline solar cells of crystalline silicon semiconductors are widely used because of their high conversion efficiency and high reliability, but the present invention is not limited thereto.

By using the solar panel 100, it is eco-friendly in the way of low noise and no pollution by power generation through solar light, and it is possible to enlarge and reduce the required area according to the arrangement number of the solar cell modules, which can be installed in various places around the bus stop. have.

Power storage unit 200 is to store the electrical energy converted from the solar panel 100,

The power storage unit 200 may store the power generated by the solar panel 100 in order to use the electric energy focused and converted by the solar panel 100 even when the solar panel 100 does not operate.

The power storage unit 200 may include a battery, and the battery includes a positive and negative electrode plate and an electrolyte, and thus may be used as a power source by generating direct current electromotive force by chemical action.

There are various kinds of storage batteries, such as lead acid batteries, lithium batteries, nickel-hydrogen batteries, nickel cadmium batteries, etc. In general, low cost lead acid batteries are widely used in medium and large sized solar cells, but the present invention is not limited thereto.

The seat unit 300 may include a seating unit and a backrest on which a user may sit, and may include a Peltier device module 310 therein to enable heat generation or cooling using power stored in the power storage unit 200. .

3 is an exploded perspective view showing a Peltier device module according to an embodiment of the present invention.

As shown in FIG. 3, the Peltier device module 310 of the seating unit 300 may include a Peltier device 320, a heat generating unit 330, and a cooling unit 340.

The Peltier element 320 is a device that emits heat in one direction and absorbs heat in the other direction. When the two types of conductors are combined and a current flows, the contact of one side generates heat and the temperature rises. It is a device using a phenomenon in which the temperature of the other end is absorbed and the temperature is lowered.

When the Peltier element 320 arranges N and P-type semiconductors and applies a voltage, endothermic heat occurs at a low temperature part while electrons move from a P-type semiconductor having a low energy level to an N-type semiconductor having a high energy level. As heat is generated in the high temperature portion, one side releases heat, and the other side may have a cooling effect by absorbing heat.

By heating and cooling the seating unit 300 using the Peltier element module 310, it is easy to apply using a small and light Peltier element, the desired form can be selected, and do not use refrigerants such as Freon It does not require maintenance such as leakage of refrigerant gas or leakage of corrosive liquid. In addition, by changing the direction of the current, both cooling and heating are possible, there is no moving part, there is no vibration and noise, and the service life is long.

The heat generating unit 330 may radiate heat emitted from one side direction of the Peltier element 320 through the heat generating unit fan 331. For example, heat is generated in the high temperature unit by applying a voltage to the Peltier element 320. The heating block 332 may be attached to one side of the Peltier element 320 to effectively release the generated heat.

One side of the heating block 332 may be formed in a planar shape so as to be in contact with one side of the Peltier element 320, the other side of the heating block 332 is a wide range of heat absorbed from one side of the heating block 332 It may include a plurality of heat generating protrusions to release to the area.

The heat generating protruding portion formed on the other side of the heat generating block 332 forms a heat generating fan 331 to effectively discharge heat generated from the Peltier element 320 from the heat generating block 332 to radiate to the outside through the heat generating fan 331. Thus, when the user is seated on the seat 300 in the cold weather in winter, the user can feel the warmth through the heating block 332.

The cooling unit 340 may absorb heat in the other direction of the Peltier element 320 through the cooling block 341. For example, the cooling unit 340 may apply heat to the Peltier element 320 to generate heat at a low temperature part, The contact plate 343, the cooling pad 342, and the cooling block 341 may be attached to the other side of the Peltier element 320 so as to be effectively absorbed.

One side of the contact plate 343 may be in contact with the other side of the Peltier element 320, and the other side of the contact plate 343 may be formed in a planar shape to be in contact with the cooling pad 342. The cooling block 341 may be formed on the opposite side of the cooling pad 342 in contact with the 343.

One side of the cooling block 342 may be formed in a planar shape to be in contact with one side of the cooling pad 342, the other side of the cooling block 342 is a plurality of cooling protrusions to absorb the heat of the peripheral portion It may include.

The cooling protrusion formed on the other side of the cooling block 332 to form a cooling block 342 to lower the ambient temperature, the user through the cooling block 332 when the user sits in the seat 300 in hot weather in summer It can make you feel cool.

The controller 400 may control the heat generation or cooling of the seat unit 300 by adjusting the power stored in the power storage unit 200.

The control unit 400 is connected to the power storage unit 200, to control the stored power supply and to operate the operation of the seat 300 according to the presence or absence of the user, to control the temperature, according to the ambient temperature and weather Temperature control and heating / cooling time can be controlled.

In addition, the controller 400 may change the positions of the heating unit 330 and the cooling unit 340 by changing the direction of the current of the Peltier element 320. The Peltier element 320 may change the position of the heating unit 330 and the cooling unit 340 by changing the direction of the current to change the direction in which electrons and holes move in the N-type semiconductor and the P-type semiconductor.

For example, by controlling the direction of the current in the control unit 400, one side of the Peltier element 320 may be the heating unit 330, and the other side may be the cooling unit 340. On the contrary, one side of the Peltier element 320 may be used. The cooling unit 340 may be, and the other side may be the heating unit 330.

The controller 400 may control the Peltier element 320 according to weather and temperature changes so that the user may feel cool on a hot day and feel warm on a cold day when the user sits on the seat 300.

As shown in FIG. 2, the temperature control chair using sunlight according to various embodiments of the present disclosure may further include a sensor unit 500, an operation unit 600, and a rotation unit 700.

The sensor unit 500 detects that the user is seated in the seating unit 300, and includes a pressure sensor in at least a portion of the seating unit so that the user is seated through the pressure sensor when the user is seated in the seating unit 300. Can be detected.

In addition, although not shown, the sensor may include an infrared sensor that detects that the user is in the vicinity of the user.

When the sensor unit 500 detects that the user is seated or exists, the controller 400 may control the temperature of the seating unit 300. That is, the control unit 400 may generate a heat generating unit 330 or a cooling unit 340 to change the temperature of the seating unit 300 when the sensor unit 500 detects that the user is seated in the seating unit 300. Can be operated.

The operation unit 600 may operate the heating unit 330 or the cooling unit 340 to change the temperature of the seat unit 300, and the user may directly adjust the temperature.

The operation unit 600 may operate the heating unit 330 or the cooling unit 340 in order for the user to sit in the seating unit 300, and includes a keypad or display for adjusting the temperature to a desired temperature. can do.

At this time, when the user leaves the seat after operating the seat unit 300 through the operation unit 600, the sensor unit 500 detects that there is no user to turn off the seat unit 300 in the control unit 400, Control back to the original temperature.

4a to 4c is a perspective view showing the rotation of the temperature control chair using sunlight according to another embodiment of the present invention.

The rotating part 700 may be formed at an end of the seating part 300 so as to selectively rotate one surface of both sides of the seating part 300 upward according to an external temperature.

The seating unit 300 may rotate so that one surface of both sides of the seating unit 300 faces upward, so that the cooling unit and the heating unit of the seating unit 300 can be selected according to the user. It is possible to rotate the seating portion 300 using the rotating portion 700 formed in the.

As shown in FIGS. 4A to 4C, the seating unit 300 absorbs heat in one side of the seating unit 350 and the other side of the seating unit 300, which emits heat in one direction of the seating unit 300. It may include the other seating unit 360.

When the user feels cold in the winter or when the ambient temperature is low, as shown in FIG. 4A, the seating unit 300 may be formed with the one seating unit 350 that emits heat in one direction of the seating unit 300 upward. .

In addition, when the user feels hot in the summer or when the ambient temperature is high, as shown in FIG. 4B, the seating part 300 is rotated by using the rotating part 700, and the other side seat which absorbs heat that is the other direction of the seating part 300. The seat part 300 may be formed with the part 360 upward.

Although not shown in the drawing, the backrest of the seating part 300 may also include a backrest part for dissipating heat and the other backrest part for absorbing heat, and a rotation part capable of rotating the backrest part and the other backrest part. It may further include.

5 and 6 are views showing a circuit connection of the seat of the temperature control chair using sunlight according to another embodiment of the present invention.

As shown in FIG. 5 and FIG. 6, in the seat unit 300, a plurality of Peltier element modules 310 may be connected in series or in parallel with the power storage unit 200.

The seat unit 300 may include a seating unit in which one or more users may sit, and each seating unit may include a Peltier device module 310. Accordingly, the seating units 300 including the respective Peltier element modules 310 may be connected in series to enable the collective operation, or may be connected in parallel to facilitate the maintenance and repair of each Peltier element module 310. have.

In addition, the Peltier device module 310 may be connected in parallel and may be connected to the control unit 400 to control each of the seating units.

The solar panel 100 is installed on the bus platform to produce power using solar light as an energy source, and the power is stored in the power storage unit 200 to use power at night, and the Peltier device 330 having low power consumption is used. By installing the in a chair, the user can feel cool on a hot day and feel warm on a cold day.

Although the present invention has been described with reference to the embodiments shown in the drawings, this is merely exemplary, and those skilled in the art will understand that various modifications and equivalent other embodiments are possible. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

100: solar panel
200: power storage
300: seat
310: Peltier device module
320: Peltier element
330: heating unit
331: heating fan
340: cooling unit
341 cooling block
350: one side sitting part
360: other seat
400: control unit
500: seat
600: control panel
700: rotating part

Claims (7)

A solar panel that focuses sunlight and converts it into electrical energy;
A power storage unit configured to store electric energy converted by the solar panel;
A seat part including a seating part for a user to sit on, and including a Peltier element module therein so as to be heated or cooled by using electric power stored in the power storage part; And
A control unit controlling the heat generation or cooling of the seat unit by adjusting the power stored in the power storage unit;
Including, temperature control chair using sunlight. The method of claim 1,
The Peltier device module of the seat portion,
A Peltier device that emits heat in one direction and absorbs heat in the other direction;
A heat generating unit dissipating heat emitted from one side of the Peltier element through a heat generating fan; And
Cooling unit for absorbing heat in the other direction of the Peltier element through a cooling block;
Including, temperature control chair using sunlight. The method of claim 2,
A sensor unit configured to detect a user sitting on the seat unit;
More,
The control unit,
The sensor unit is to operate the heating unit or the cooling unit to change the temperature of the seat portion when it is detected that the user is seated in the seat, temperature control chair using sunlight. The method of claim 2,
An operation unit capable of operating the heating unit or the cooling unit so as to change the temperature of the seat unit and allowing a user to directly adjust the temperature;
Further comprising, a thermostatic chair using sunlight. The method of claim 1,
The seat portion,
A seating unit configured to discharge heat to one side of the seat unit; And
The other seating unit which absorbs heat to the other side of the seat unit;
Including,
A rotation part formed at an end portion of the seat part to selectively rotate one surface of both sides of the seat part upward according to an external temperature;
Further comprising, a thermostatic chair using sunlight. The method of claim 1,
The seat portion
A plurality of the Peltier device module is connected to the power storage in series, the temperature control chair using sunlight. The method of claim 1,
The seat portion
A plurality of the Peltier device module is connected to the power storage unit in parallel, the temperature control chair using sunlight.

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